import gradio as gr import requests import bs4 import lxml import os from huggingface_hub import InferenceClient,HfApi import random import json import datetime import xmltodict from textblob import TextBlob os.system("python -m textblob.download_corpora") from prompts import ( GET_KEYWORD, COMPRESS_HISTORY_PROMPT, COMPRESS_DATA_PROMPT, COMPRESS_DATA_PROMPT_SMALL, PREFIX_ALT, PREFIX, ) client = InferenceClient("mistralai/Mixtral-8x7B-Instruct-v0.1") reponame="Omnibus/tmp" save_data=f'https://huggingface.co/datasets/{reponame}/raw/main/' token_self = os.environ['HF_TOKEN2'] api=HfApi(token=token_self) def parse_action(string: str): print("PARSING:") print(string) assert string.startswith("action:") idx = string.find("action_input=") print(idx) if idx == -1: print ("idx == -1") print (string[8:]) return string[8:], None print ("last return:") print (string[8 : idx - 1]) print (string[idx + 13 :].strip("'").strip('"')) return string[8 : idx - 1], string[idx + 13 :].strip("'").strip('"') MAX_HISTORY = 100 MAX_DATA = 40000 def format_prompt(message, history): prompt = "~~" for user_prompt, bot_response in history: prompt += f"[INST] {user_prompt} [/INST]" prompt += f" {bot_response}~~ " prompt += f"[INST] {message} [/INST]" return prompt def run_gpt( prompt_template, stop_tokens, max_tokens, seed, purpose, prefix_tog, **prompt_kwargs, ): timestamp=datetime.datetime.now() print(seed) generate_kwargs = dict( temperature=0.9, max_new_tokens=max_tokens, top_p=0.95, repetition_penalty=1.0, do_sample=True, seed=seed, ) print(f'prefix_tog:: {prefix_tog}') if prefix_tog == "normal": content = PREFIX.format( timestamp=timestamp, purpose=purpose, ) + prompt_template.format(**prompt_kwargs) if prefix_tog == "alternate": content = PREFIX_ALT + prompt_template.format(**prompt_kwargs) #formatted_prompt = format_prompt(f"{system_prompt}, {prompt}", history) #formatted_prompt = format_prompt(f'{content}', **prompt_kwargs['history']) stream = client.text_generation(content, **generate_kwargs, stream=True, details=True, return_full_text=False) resp = "" for response in stream: resp += response.token.text #yield resp return resp NEWS_REPORTER="""You are an Expert News Aggregator. Your duty is to read and compress all of the News Articles you are given into 10 or more individual articles that capture the full context of the current news. Compile your articles into JSON format which the user will load into an RSS reader for other users to read. Output Format: {output_format} News Articles: {new_data} """ output_format="""{"title": "title of the first article","description": "description of the article","article": "your custom written article","links": "all source links that have contributed to the article"},{"title": "title of the second article","description": "description of the article","article": "your custom written article","links": "all source links that have contributed to the article"}""" def summarize(inp,history,data=None): json_box=[] if inp == "": inp = "Process this data" #inp = format_prompt(inp,history) task = "Compile a detailed report" history.clear() yield "",[(inp,"Working on it...")],None if data != "Error" and data != "": timestamp=datetime.datetime.now() seed=random.randint(1,1000000000) print(seed) generate_kwargs = dict( temperature=0.9, max_new_tokens=10240, top_p=0.95, repetition_penalty=1.0, do_sample=True, seed=seed, ) out = str(data) rl = len(out) print(f'rl:: {rl}') c=1 for i in str(out): if i == " " or i=="," or i=="\n" or i=="/" or i=="." or i=="<": c +=1 print (f'c:: {c}') divr=int(c)/MAX_DATA divi=int(divr)+1 if divr != int(divr) else int(divr) chunk = int(int(c)/divr) print(f'chunk:: {chunk}') print(f'divr:: {divr}') print (f'divi:: {divi}') s=0 e=chunk print(f'e:: {e}') out_box =[] resp = "" for z in range(divi): print(f's:e :: {s}:{e}') mes= f'Working on data chunk: {s}:{e}' new_data = out[s:e] #yield "", [(inp,f'{mes}\n{new_history}')] #content = NEWS_REPORTER.format(output_format=output_format,new_data=str(new_data.replace("{","").replace("}",""))) content = NEWS_REPORTER.format(output_format=output_format,new_data=str(new_data)) stream = client.text_generation(content, **generate_kwargs, stream=True, details=True, return_full_text=False) for response in stream: resp += response.token.text yield "", [(inp,resp)],None out_json=resp.replace("\n","").replace("```","") out_box.append(out_json.strip("")) #out_box=eval(out_box) print("ADDING") yield "", [(inp,resp)],out_box e=e+chunk s=s+chunk else: rawp = "Provide a valid data source" history.append((inp,rawp)) yield "", history,None def find_rss(): timestamp=str(datetime.datetime.now()) timename=timestamp.replace(" ","--").replace(":","-").replace(".","-") error_box=[] error_box_schema={"Name":"","Error":"","Keys":"","Other":""} lod="" out_box=[] valid_box=[] yield [],[(None,"loading sources")],None with open ('valid_feeds.json','r') as j: cont = json.loads(j.read()) #print(cont) j.close() for ea in cont: try: #lod="" #print (ea['link']) if ea.get('link') is not None: rss_url=ea['link'] else: rss_url=ea['URL'] link_box=[] r = requests.get(f'{rss_url}') if r.status_code == 200: try: if ".json" in rss_url: lod = json.loads(r.text) if ".xml" in rss_url: lod = xmltodict.parse(r.content) if ".rss" in rss_url: lod = xmltodict.parse(r.content) else: try: lod = xmltodict.parse(r.content) except Exception as e: lod=f'{rss_url} ::ERROR:: {e}' error_box.append({"Name":rss_url,"Error":e,"Error Code":1}) if ea.get('section') is not None: section = ea['section'] else: section = "" valid_box.append({"source":ea['source'],"link":ea['link'],"section":section,"description":''}) except Exception as e: lod=f'{rss_url} ::ERROR:: {e}' error_box.append({"Name":rss_url,"Error":e,"Error Code":2}) else: lod = f'{rss_url} ::ERROR::COULD NOT CONNECT:: {r.status_code}' error_box.append({"Name":rss_url,"Error":f'Status Code:{r.status_code}',"Error Code":3}) pass try: #print(lod['rss']['channel']['item'][0].keys()) #print(lod['rss'].keys()) print("##############") #print(lod['rss'].keys()) print("##############") for i,ea in enumerate(lod['rss']['channel']['item']): try: r_link = ea['link'] if ea.get('title') != None: r_title = ea['title'] else: r_title= ea['source'] tt = TextBlob(r_title) #tt_nouns=tt.tags tt_phrases=tt.noun_phrases if ea.get('description') != None: r_description = ea['description'] else: r_description = [lod['rss']['channel']['item']] td = TextBlob(r_description) #td_nouns=td.tags td_phrases=td.noun_phrases #tdd_nouns=[x for x in td_nouns if x[1]=='NN' or x[1]=='NNP'] #ttt_nouns=[x1 for x1 in tt_nouns if x1[1]=='NN' or x1[1]=='NNP'] #nouns=ttt_nouns+tdd_nouns phrases=tt_phrases+td_phrases lods = {"title":r_title, "description":r_description,"link":r_link, "noun_phrases":phrases} except Exception as e: print(f"Exception::{ea}") error_box.append({"Name":rss_url,"Keys":lod['rss']['channel']['item'],"Error":e,"Error Code":4}) print(e) pass #lods = {"title":"ERROR", "description":{e},"link":"ERROR"} """ r_link = lod['rss']['channel']['item'][i]['link'] r_title = lod['rss']['channel']['item'][i]['title'] r_description = lod['rss']['channel']['item'][i]['description']""" link_box.append(lods) lod={lod['rss']['channel']['title']:link_box} out_box.append(lod) except Exception as e: error_box.append({"Name":rss_url,"Error":e,"Error Code":5}) print(f'Exception::{e}') except Exception as e: error_box.append({"Name":rss_url,"Error":e,"Error Code":6}) print(f'Exception::{e}') pass ''' json_object_valid = json.dumps(valid_box, indent=4) with open("tmp3.json", "w") as outfile3: outfile3.write(json_object_valid) api.upload_file( path_or_fileobj="tmp3.json", path_in_repo=f"/rss/valid-{timename}.json", repo_id=reponame, #repo_id=save_data.split('datasets/',1)[1].split('/raw',1)[0], token=token_self, repo_type="dataset", ) yield out_box,[(None,'')],error_box ''' print("DONE") json_object = json.dumps(out_box, indent=4) #json_object = json.dumps(out_box,indent=4) with open("tmp2.json", "w") as outfile: outfile.write(json_object) api.upload_file( path_or_fileobj="tmp2.json", path_in_repo=f"/rss1/{timename}.json", repo_id=reponame, #repo_id=save_data.split('datasets/',1)[1].split('/raw',1)[0], token=token_self, repo_type="dataset", ) yield out_box,[(None,f'Source is current as of:\n{timestamp} UTC\n\nThe current Date and Time is:\n{timestamp} UTC')],error_box def load_data(rss_url=None): timestamp=str(datetime.datetime.now()) yield None,[(None,f'Loading data source, please wait')] if rss_url: yield None,[(None,f'Loading data from {rss_url}, please wait')] r = requests.get(f'{rss_url}') if r.status_code == 200: lod={} try: if ".json" in rss_url: lod = json.loads(r.text) if ".xml" in rss_url: lod = xmltodict.parse(r.content) if ".rss" in rss_url: lod = xmltodict.parse(r.content) else: try: lod = xmltodict.parse(r.content) except Exception as e: yield None, [(None, f'{rss_url} ::ERROR:: {e}')] except Exception as e: yield None, [(None, f'{rss_url} ::ERROR:: {e}')] yield lod,[(None,f'Source is current as of:\n{timestamp} UTC')] else: yield None, [(None, f'{rss_url} ::ERROR::COULD NOT CONNECT:: {r.status_code}')] if not rss_url: yield None,[(None,f'Loading data from database, please wait')] f_ist = (api.list_repo_files(repo_id=f'{reponame}', repo_type="dataset")) f_ist.sort(reverse=True) #print(f_ist) r = requests.get(f'{save_data}{f_ist[0]}') lod = json.loads(r.text) filename=f_ist[0].split("/")[1].split(".json")[0].replace("--"," ") print (filename) filename_start = filename.split(" ")[0] filename_end = filename.split(" ")[1] filename_end = filename_end.replace("-"[0],":").replace("-"[0],":").replace("-"[0],".") #filename_end_far=filename_end.split(":")[2] print (filename) yield lod,[(None,f'Source is current as of:\n{filename_start} {filename_end} UTC\n\nThe current Date and Time is:\n{timestamp} UTC')] with gr.Blocks() as app: cb = gr.Chatbot(height=600, show_share_button=True, show_copy_button=True) with gr.Row(): inst = gr.Textbox(label="Instructions") sub_btn=gr.Button("Submit") with gr.Row(): rss_custom=gr.Textbox(label="URL for RSS feed (.rss,.xml)") load_btn = gr.Button("Load RSS") with gr.Accordion(open=False): u_btn=gr.Button("Update [RSS Data]") keyw = gr.Button("Use Keyword [Experimental]") with gr.Row(): out_json = gr.JSON() #error_box=gr.JSON() error_box=gr.JSON() fil = gr.Textbox() #keyw.click(get_records,[inst,out_json],[inst,cb]) load_btn.click(load_data,rss_custom,[out_json,cb]) u_btn.click(find_rss,None,[out_json,cb,error_box]) sub_btn.click(summarize,[inst,cb,out_json],[inst,cb,error_box]) app.queue(default_concurrency_limit=20).launch() '''import gradio as gr import requests import bs4 import lxml import os from huggingface_hub import InferenceClient,HfApi import random import json import datetime import xmltodict from textblob import TextBlob os.system("python -m textblob.download_corpora") from prompts import ( GET_KEYWORD, COMPRESS_HISTORY_PROMPT, COMPRESS_DATA_PROMPT, COMPRESS_DATA_PROMPT_SMALL, PREFIX_ALT, PREFIX, ) client = InferenceClient("mistralai/Mixtral-8x7B-Instruct-v0.1") reponame="Omnibus/tmp" save_data=f'https://huggingface.co/datasets/{reponame}/raw/main/' token_self = os.environ['HF_TOKEN2'] api=HfApi(token=token_self) def parse_action(string: str): print("PARSING:") print(string) assert string.startswith("action:") idx = string.find("action_input=") print(idx) if idx == -1: print ("idx == -1") print (string[8:]) return string[8:], None print ("last return:") print (string[8 : idx - 1]) print (string[idx + 13 :].strip("'").strip('"')) return string[8 : idx - 1], string[idx + 13 :].strip("'").strip('"') MAX_HISTORY = 100 MAX_DATA = 40000 def format_prompt(message, history): prompt = "~~" for user_prompt, bot_response in history: prompt += f"[INST] {user_prompt} [/INST]" prompt += f" {bot_response}~~ " prompt += f"[INST] {message} [/INST]" return prompt def run_gpt( prompt_template, stop_tokens, max_tokens, seed, purpose, prefix_tog, **prompt_kwargs, ): timestamp=datetime.datetime.now() print(seed) generate_kwargs = dict( temperature=0.9, max_new_tokens=max_tokens, top_p=0.95, repetition_penalty=1.0, do_sample=True, seed=seed, ) print(f'prefix_tog:: {prefix_tog}') if prefix_tog == "normal": content = PREFIX.format( timestamp=timestamp, purpose=purpose, ) + prompt_template.format(**prompt_kwargs) if prefix_tog == "alternate": content = PREFIX_ALT + prompt_template.format(**prompt_kwargs) #formatted_prompt = format_prompt(f"{system_prompt}, {prompt}", history) #formatted_prompt = format_prompt(f'{content}', **prompt_kwargs['history']) stream = client.text_generation(content, **generate_kwargs, stream=True, details=True, return_full_text=False) resp = "" for response in stream: resp += response.token.text #yield resp return resp def compress_data(c,purpose, task, history): seed=random.randint(1,1000000000) print (c) divr=int(c)/MAX_DATA divi=int(divr)+1 if divr != int(divr) else int(divr) chunk = int(int(c)/divr) print(f'chunk:: {chunk}') print(f'divr:: {divr}') print (f'divi:: {divi}') out = [] #out="" s=0 e=chunk print(f'e:: {e}') new_history="" task = f'Compile this data to fulfill the task: {task}, and complete the purpose: {purpose}\n' for z in range(divi): print(f's:e :: {s}:{e}') hist = history[s:e] print(f'hist::\n{hist}') resp = run_gpt( COMPRESS_DATA_PROMPT, stop_tokens=["observation:", "task:", "action:", "thought:"], max_tokens=2048, seed=seed, purpose=purpose, prefix_tog="normal", task=task, knowledge=new_history, history=hist, ).strip("\n") new_history = resp print (resp) out+=resp e=e+chunk s=s+chunk """ resp = run_gpt( COMPRESS_DATA_PROMPT, stop_tokens=["observation:", "task:", "action:", "thought:"], max_tokens=2048, seed=seed, purpose=purpose, task=task, knowledge=new_history, history=result, ) """ print ("final" + resp) history = "result: {}\n".format(resp) return history def get_records(inp,data): key_box=[] seed=random.randint(1,1000000000) print(inp) out = str(data) rl = len(out) print(f'rl:: {rl}') c=1 for i in str(out): if i == " " or i=="," or i=="\n" or i=="/" or i=="." or i=="<": c +=1 print (f'c:: {c}') divr=int(c)/MAX_DATA divi=int(divr)+1 if divr != int(divr) else int(divr) chunk = int(int(c)/divr) print(f'chunk:: {chunk}') print(f'divr:: {divr}') print (f'divi:: {divi}') s=0 e=chunk print(f'e:: {e}') new_history="" #task = f'Compile this data to fulfill the task: {task}, and complete the purpose: {purpose}\n' for z in range(divi): print(f's:e :: {s}:{e}') hist = out[s:e] print(f'hist::\n{hist}') resp = run_gpt( GET_KEYWORD, stop_tokens=[], max_tokens=2048, seed=seed, purpose=inp, prefix_tog="alternate", task=inp, knowledge=new_history, history=hist, ).strip("\n") new_history = resp print (f'resp {z}::\n {resp}') #out+=resp e=e+chunk s=s+chunk yield "", [(inp,new_history)] def get_key(inp,data): key_box=[] seed=random.randint(1,1000000000) key_w = run_gpt( GET_KEYWORD, stop_tokens=[], max_tokens=56, seed=seed, purpose=inp, prefix_tog="normal", task=inp, ).split("<")[0] print(f'key_w::{key_w}') if " " in key_w: key_w=key_w.split(" ")[-1] for i,ba in enumerate(data): each_key=data[i].keys() print(each_key) for z,zz in enumerate(list(each_key)[0]): #for f,ff in enumerate(data[i][zz]): ea = data[i][list(each_key)[0]][z] try: if ea['title'] and key_w in ea['title']: key_box.append(ea) elif ea['description'] and key_w in ea['description']: key_box.append(ea) elif ea['link'] and key_w in ea['link']: key_box.append(ea) except Exception as e: print(e) print(key_box) NEWS_REPORTER="""You are an Expert News Aggregator. Your duty is to compress all of the News Articles you are given into 10 or more individual articles that capture the full context of the current news. Compile your articles into JSON format which the user will load into an RSS reader for other users to read. Add NEW DATA that you recieve to your CURRENT DATA by combining and reformatting when needed. Output Format: [ "title": "title of the first article", "description": "description of the article", "article": "your custom written article", "links": "all source links that have contributed to the article" ] News Articles: {new_data} """ def summarize(inp,history,data=None): json_box=[] if inp == "": inp = "Process this data" #inp = format_prompt(inp,history) task = "Compile a detailed report" history.clear() yield "",[(inp,"Working on it...")],None if data != "Error" and data != "": timestamp=datetime.datetime.now() seed=random.randint(1,1000000000) print(seed) generate_kwargs = dict( temperature=0.9, max_new_tokens=10240, top_p=0.95, repetition_penalty=1.0, do_sample=True, seed=seed, ) out = str(data) rl = len(out) print(f'rl:: {rl}') c=1 for i in str(out): if i == " " or i=="," or i=="\n" or i=="/" or i=="." or i=="<": c +=1 print (f'c:: {c}') divr=int(c)/MAX_DATA divi=int(divr)+1 if divr != int(divr) else int(divr) chunk = int(int(c)/divr) print(f'chunk:: {chunk}') print(f'divr:: {divr}') print (f'divi:: {divi}') s=0 e=chunk print(f'e:: {e}') out_box =[] resp = "" for z in range(divi): print(f's:e :: {s}:{e}') mes= f'Working on data chunk: {s}:{e}' new_data = out[s:e] #yield "", [(inp,f'{mes}\n{new_history}')] content = NEWS_REPORTER.format(new_data=str(new_data)) stream = client.text_generation(content, **generate_kwargs, stream=True, details=True, return_full_text=False) for response in stream: resp += str(response.token.text) #print(resp) yield "", [(inp,resp)],out_box #for line in resp.split("\n"): #if 'title:' in line.lower(): out_json=resp.replace("\n","").replace("```","") print(out_json) out_box.append(out_json.strip("")) #out_box=out_box) print("ADDING") e=e+chunk s=s+chunk print("DONE") return "", [(inp,resp)],out_box #history = "preliminary result: {}\n".format(resp) #yield "", (inp,f'{mes}\n{history}') #print ("final" + resp) #out_hist = "result:\n{}".format(resp) #return history #yield "", [(inp,out_hist)] #out = str(out_hist) #rawp = out else: print("ERROR") rawp = "Provide a valid data source" history.append((inp,rawp)) return "", history,None def find_rss(): timestamp=str(datetime.datetime.now()) timename=timestamp.replace(" ","--").replace(":","-").replace(".","-") error_box=[] error_box_schema={"Name":"","Error":"","Keys":"","Other":""} lod="" out_box=[] valid_box=[] yield [],[(None,"loading sources")],None with open ('valid_feeds.json','r') as j: cont = json.loads(j.read()) #print(cont) j.close() for ea in cont: try: #lod="" #print (ea['link']) if ea.get('link') is not None: rss_url=ea['link'] else: rss_url=ea['URL'] link_box=[] r = requests.get(f'{rss_url}') if r.status_code == 200: try: if ".json" in rss_url: lod = json.loads(r.text) if ".xml" in rss_url: lod = xmltodict.parse(r.content) if ".rss" in rss_url: lod = xmltodict.parse(r.content) else: try: lod = xmltodict.parse(r.content) except Exception as e: lod=f'{rss_url} ::ERROR:: {e}' error_box.append({"Name":rss_url,"Error":e,"Error Code":1}) if ea.get('section') is not None: section = ea['section'] else: section = "" valid_box.append({"source":ea['source'],"link":ea['link'],"section":section,"description":''}) except Exception as e: lod=f'{rss_url} ::ERROR:: {e}' error_box.append({"Name":rss_url,"Error":e,"Error Code":2}) else: lod = f'{rss_url} ::ERROR::COULD NOT CONNECT:: {r.status_code}' error_box.append({"Name":rss_url,"Error":f'Status Code:{r.status_code}',"Error Code":3}) pass try: #print(lod['rss']['channel']['item'][0].keys()) #print(lod['rss'].keys()) print("##############") #print(lod['rss'].keys()) print("##############") for i,ea in enumerate(lod['rss']['channel']['item']): try: r_link = ea['link'] if ea.get('title') != None: r_title = ea['title'] else: r_title= ea['source'] tt = TextBlob(r_title) #tt_nouns=tt.tags tt_phrases=tt.noun_phrases if ea.get('description') != None: r_description = ea['description'] else: r_description = [lod['rss']['channel']['item']] td = TextBlob(r_description) #td_nouns=td.tags td_phrases=td.noun_phrases #tdd_nouns=[x for x in td_nouns if x[1]=='NN' or x[1]=='NNP'] #ttt_nouns=[x1 for x1 in tt_nouns if x1[1]=='NN' or x1[1]=='NNP'] #nouns=ttt_nouns+tdd_nouns phrases=tt_phrases+td_phrases lods = {"title":r_title, "description":r_description,"link":r_link, "noun_phrases":phrases} except Exception as e: print(f"Exception::{ea}") error_box.append({"Name":rss_url,"Keys":lod['rss']['channel']['item'],"Error":e,"Error Code":4}) print(e) pass #lods = {"title":"ERROR", "description":{e},"link":"ERROR"} """ r_link = lod['rss']['channel']['item'][i]['link'] r_title = lod['rss']['channel']['item'][i]['title'] r_description = lod['rss']['channel']['item'][i]['description']""" link_box.append(lods) lod={lod['rss']['channel']['title']:link_box} out_box.append(lod) except Exception as e: error_box.append({"Name":rss_url,"Error":e,"Error Code":5}) print(f'Exception::{e}') except Exception as e: error_box.append({"Name":rss_url,"Error":e,"Error Code":6}) print(f'Exception::{e}') pass """ json_object_valid = json.dumps(valid_box, indent=4) with open("tmp3.json", "w") as outfile3: outfile3.write(json_object_valid) api.upload_file( path_or_fileobj="tmp3.json", path_in_repo=f"/rss/valid-{timename}.json", repo_id=reponame, #repo_id=save_data.split('datasets/',1)[1].split('/raw',1)[0], token=token_self, repo_type="dataset", ) yield out_box,[(None,'')],error_box """ print("DONE") json_object = json.dumps(out_box, indent=4) #json_object = json.dumps(out_box,indent=4) with open("tmp2.json", "w") as outfile: outfile.write(json_object) api.upload_file( path_or_fileobj="tmp2.json", path_in_repo=f"/rss1/{timename}.json", repo_id=reponame, #repo_id=save_data.split('datasets/',1)[1].split('/raw',1)[0], token=token_self, repo_type="dataset", ) yield out_box,[(None,f'Source is current as of:\n{timestamp} UTC\n\nThe current Date and Time is:\n{timestamp} UTC')],error_box def load_data(rss_url=None): timestamp=str(datetime.datetime.now()) yield None,[(None,f'Loading data source, please wait')] if rss_url: yield None,[(None,f'Loading data from {rss_url}, please wait')] r = requests.get(f'{rss_url}') if r.status_code == 200: lod={} try: if ".json" in rss_url: lod = json.loads(r.text) if ".xml" in rss_url: lod = xmltodict.parse(r.content) if ".rss" in rss_url: lod = xmltodict.parse(r.content) else: try: lod = xmltodict.parse(r.content) except Exception as e: yield None, [(None, f'{rss_url} ::ERROR:: {e}')] except Exception as e: yield None, [(None, f'{rss_url} ::ERROR:: {e}')] yield lod,[(None,f'Source is current as of:\n{timestamp} UTC')] else: yield None, [(None, f'{rss_url} ::ERROR::COULD NOT CONNECT:: {r.status_code}')] if not rss_url: yield None,[(None,f'Loading data from database, please wait')] f_ist = (api.list_repo_files(repo_id=f'{reponame}', repo_type="dataset")) f_ist.sort(reverse=True) #print(f_ist) r = requests.get(f'{save_data}{f_ist[0]}') lod = json.loads(r.text) filename=f_ist[0].split("/")[1].split(".json")[0].replace("--"," ") print (filename) filename_start = filename.split(" ")[0] filename_end = filename.split(" ")[1] filename_end = filename_end.replace("-"[0],":").replace("-"[0],":").replace("-"[0],".") #filename_end_far=filename_end.split(":")[2] print (filename) yield lod,[(None,f'Source is current as of:\n{filename_start} {filename_end} UTC\n\nThe current Date and Time is:\n{timestamp} UTC')] def load_html(conv): print("LOAD HTML") print(conv) ht="" ht+=f"""

""" for ea in conv: ht+=f"""

{ea['title']}

{ea['description']}

{ea['links']}
{ea['article']}

""" ht+=f"""

""" with open('index.html','r') as h: html=h.read() html = html.replace("$body",f"{ht}") h.close() return html with gr.Blocks() as app: html_out=gr.HTML() cb = gr.Chatbot(height=600, show_share_button=True, show_copy_button=True) with gr.Row(): inst = gr.Textbox(label="Instructions") sub_btn=gr.Button("Submit") with gr.Row(): rss_custom=gr.Textbox(label="URL for RSS feed (.rss,.xml)") load_btn = gr.Button("Load RSS") with gr.Accordion(open=False): u_btn=gr.Button("Update [RSS Data]") keyw = gr.Button("Use Keyword [Experimental]") with gr.Row(): out_json = gr.JSON() #error_box=gr.JSON() error_box=gr.JSON() fil = gr.Textbox() keyw.click(get_records,[inst,out_json],[inst,cb]) load_btn.click(load_data,rss_custom,[out_json,cb]) u_btn.click(find_rss,None,[out_json,cb,error_box]) sub_btn.click(summarize,[inst,cb,out_json],[inst,cb,error_box]).then(load_html,error_box,html_out) app.queue(default_concurrency_limit=20).launch() '''